KR100943403B1 - Appratus for forming wave type steel sheet in bending process of forming wave type steel sheet - Google Patents

Abstract

PURPOSE: A device for feeding a corrugated steel plate in a bending process of a corrugated steel plate is provided to rapidly perform a bending process without operation error. CONSTITUTION: A device for feeding a corrugated steel plate in a bending process of a corrugated steel plate has a bending machine for the corrugated steel plate. The bending machine molds a flat steel plate to be corrugated. Corrugating units(11) are formed in the top end of multiple supports(10). The supports are horizontally arranged at equal intervals to divide a lower mold(2), and each other connected through a connection rod(20) to be operated at the same time. Cam plates(30) are coupled to both ends of the connection rod, and the centers of the cam plates are coupled with rotating shafts(40). Torque is transferred to one side of the rotating shaft by a motor(M).

Description

Apparatus for forming wave type steel sheet in bending process of forming wave type steel sheet}

The present invention relates to a corrugated sheet feeding apparatus of a corrugated sheet bending process configured to continuously insert a flat sheet into the corrugated sheet sheet bending machine side and discharge the completed corrugated sheet from the corrugated sheet sheet bending machine.

In general, corrugated steel sheet is a steel plate that has improved strength by forming corrugated waves and valleys on a plate made of flat plate, and is used for structures requiring high strength such as arched tunnel construction. It is molded in the bending machine.

Conventional corrugated bending machine is installed on the mounting plate and the supporting plate to face the upper and lower molds, respectively, and formed the irregularities of the shape of the corrugated steel sheet and the mountains of the corrugated steel sheet at the lower end of the upper mold and the upper end of the lower mold to form the corrugations on the steel plate by these irregularities. It was made.

That is, when the upper die is lowered in the state where the flat plate is positioned between the upper die and the lower die, the flat plate is pressed to form a waveform having the same shape as the shape of the uneven portion formed in the upper die and the lower die.

Such a wave bending process is performed while the flat plate gradually passes through the lower die, and the feeding operation of the flat plate is performed through the cylinders installed in the lower and front of the corrugated bending machine. In other words, while the upper mold is repositioned upward, the lifting cylinder installed on the lower lower portion lifts the corrugated steel sheet and pushes the corrugated steel sheet on which the discharge cylinder installed in front of the corrugated bending machine is lifted backward.

However, when the feeding operation is performed through the cylinder method as in the related art, an impact occurs whenever the rod end drawn from the lifting / exhaust cylinder contacts the corrugated steel sheet. This causes a change in the position of the corrugated steel sheet, which may interfere with the next waveform forming.

In addition, since the lifting cylinder and the discharge cylinder should be operated in sequence, the feeding operation speed is very slow, which causes a problem in that workability is greatly reduced.

In addition, if the cylinder is used for a long time due to the characteristics of the operation, an operation error is inevitably generated. In this case, the lifting cylinder does not raise the corrugated steel sheet to the correct position, and the discharge cylinder does not push the corrugated steel sheet accurately, thus performing normal feeding operation. The problem of becoming impossible becomes.

SUMMARY OF THE INVENTION An object of the present invention is to provide a corrugated sheet feeding apparatus of a corrugated sheet bending process that is precisely and quickly made without operating errors without impact on the corrugated sheet during feeding of the formed corrugated sheet during the corrugated sheet bending process.

Corrugated steel sheet feeding apparatus of the corrugated steel sheet bending process according to an embodiment of the present invention in order to achieve the above object by forming the concave-convex portion of the shape of the corrugated steel sheet and acid on the lower end of the upper mold and the upper end of the lower mold In the corrugated steel sheet bending machine for forming a waveform on the steel sheet by the, wherein the lower mold is divided into parallel to the traveling direction of the steel sheet, between the divided lower mold is formed a waveform support having a corrugated portion corresponding to the waveform of the corrugated steel sheet at the top The respective corrugated supports are positioned to be connected to each other so as to enable simultaneous operation through connecting rods installed in a direction perpendicular to the traveling direction of the steel plate, and both ends of the connecting rods are respectively pin-coupled to each other, and at the center of each of the cam plates. The rotating shaft parallel to the connecting rod is coupled, and the rotating shaft on one side receives the rotating force through the driving motor. It is characterized by continuously repeating the operation of drawing the flat plate in standby to the corrugated sheet steel bending machine during the driving of the motor and lifting the corrugated steel plate placed on the upper part of the lower mold and discharging it from the corrugated steel sheet steel sheet bending machine. do.

In addition, the corrugated support has a flat portion extending toward the flat plate inlet to support the lower portion of the flat plate.

In addition, when the upper mold rises, the corrugated support moves from the foremost point to the rearmost position, and when the upper mold descends, the corrugated support moves along the elliptic trajectory that moves to the foremost position.

The corrugated sheet feeding apparatus of the corrugated sheet bending process according to the present invention performs the feeding operation of moving the flat sheet to the corrugated sheet bending machine side by step while the upper mold moves upward and descends while the corrugated support is periodically raised between the lower dies. As a result, waveform forming and feeding can be carried out continuously at the same time, so the work speed is very fast.

In addition, in the present invention, since the corrugated support and the flat portion are formed on the corrugated support and the corrugated support moves along the cam plate while drawing a constant elliptical trajectory, the contact impact between the corrugated support and the flat plate is naturally in contact with the lower portion of the flat plate. Minimized operation error compared to the conventional piston drive method is significantly lower, there is an effect that can perform accurate feeding operation even in long-term use.

The features and advantages of the present invention will become more apparent from the following detailed description of preferred embodiments based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts.

As shown in FIG. 1, the corrugated steel sheet feeding apparatus according to the present invention forms convex and convex portions such as valleys and mountains of the corrugated steel sheet P2 at the lower end of the upper die 1 and the upper end of the lower die 2. It is applied to the corrugated steel sheet bending process provided with the corrugated steel sheet bending machine which made the corrugation shape to the flat steel plate P by the.

Although not shown, in front of the corrugated sheet steel sheet bending machine, a flat sheet conveying apparatus for entering a flat sheet P is disposed, and at the rear of the corrugated sheet sheet bending machine, molding is completed to form a corrugated sheet sheet P2 discharged from the corrugated sheet sheet bending machine. The corrugated steel sheet conveying device for conveying the product to a subsequent process is arranged.

According to the present invention, the lower mold 2 of the corrugated steel sheet bending machine is dividedly formed in a direction parallel to the traveling direction of the steel sheet. The divided lower molds 2a, 2b, 2c, and 2d are arranged at regular intervals, and the plate-shaped corrugated support 10 is positioned between each lower mold 2 and the lower mold 2, respectively.

The corrugated support 10 has a corrugated portion 11 corresponding to the corrugated corrugated steel sheet P2 at an upper end thereof so as to support the lower portion of the corrugated steel sheet P2. The corrugated support 10 further has a flat portion 12 extending toward the flat plate feeder to support the lower portion of the flat plate P.

And, each of the corrugated support 10 is interconnected to enable simultaneous operation through the connecting rod 20 installed in the traveling direction (front and rear direction) and the vertical direction (left and right directions) of the steel sheet. That is, the corrugated supporters 10 have a structure in which the corrugated supporters 10 are sequentially penetrated through the connecting rods 20.

Cam plates 30 are coupled to both ends of the connecting rod 20 through pins, and a rotation shaft 40 parallel to the connecting rod 20 is coupled to the center of the cam plate 30. That is, the connecting rod 20 is pin coupled to the edge of the cam plate 30. The rotation shaft 40 is coupled to the cam plate 30 stably through a support bracket installed on the bottom, of which, the rotation shaft 40 of one side is given a rotational force from the drive motor (M).

In addition, the connecting rod 20 is preferably to be connected to the front and rear ends of the corrugated support (10) for a stable connection with the corrugated support (10).

Therefore, the waveform support 10 when the driving motor (M) is driven to perform a turning operation with a predetermined radius around the rotation axis (40). That is, when the upper mold 1 rises, the corrugated support 10 moves from the lower mold 2 to the rearmost position through the uppermost point while lifting up the corrugated steel sheet P2 placed on top of the lower mold 2. The discharge operation for discharging the steel sheet P2 from the corrugated steel sheet bending machine is performed, and when the upper die 1 descends, the standby operation located at the foremost position after the lowest point is continuously repeated.

On the other hand, the corrugated support 10 is a cam plate (a proper distance from the center of the cam plate 30 so that the horizontal distance from the foremost position to the rearmost position is equal to the pitch of the waveform to be molded or the pitch of the peaks (or valleys) of the lower die) It is desirable to pin the edge of 30). Therefore, when the cam plate 30 rotates once, the waveform support 10 reciprocates while drawing an elliptical shape by the pitch of the waveform.

According to the corrugated sheet feeding apparatus of the corrugated sheet bending process of the present invention configured as described above, the corrugated sheet P2 is introduced and discharged from the corrugated sheet sheet bending machine in detail.

First, FIG. 2 is a view showing an initial state in which the corrugated support 10 is located at the rear end. From the front, the flat plate P enters the corrugated plate bending machine side through the flat plate feeder, and the upper die 1 is It is down.

FIG. 3 is a view illustrating a state in which the wave support 10 is positioned at the forefront and the flat plate P is placed on the flat portion 12 of the wave support 10 due to the driving of the driving motor M. FIG. 10 is moved to the foremost point after the lowest point, and the upper mold 1 starts to rise. And the flat plate feeder moves the flat plate (P) to the flat portion 12 of the corrugated support (10) in accordance with the point at which the corrugated support (10) is moved to the foremost. According to the present invention, since the flat portion 12 moves forward and rises, the surface contact with the lower portion of the flat steel plate (P) is naturally in contact, so that the contact impact between the corrugated support 10 and the flat steel plate (P) is minimized.

When the flat plate P is placed on the flat portion 12 as described above, as shown in FIG. 4, the upper die 1 is raised and at the same time the corrugated support 10 lifts the flat plate P. It will be moved to the highest point position. And, as shown in Figure 5, the waveform support 10 past the highest point is moved to the rearmost position. When the corrugated support 10 is moved to the rearmost position, the flat plate P placed on the flat portion 12 is placed on the upper portion of the lower mold 2. At this time, the upper die (1) begins to descend.

As shown in Figure 6, when the upper die (1) is completely lowered, the upper die (1) and the lower die (2) is engaged with the wave shaping of the tip of the flat plate (P), while the wave forming support ( 10) passes the lowest point.

As shown in Fig. 7, while the corrugated support 10 past the lowest point reaches the foremost, the upper die 1 is raised again to prepare for the next molding. The corrugated support 10 which has reached the foremost is the same shape as the corrugated wave formed by the corrugated portion 11 and the corrugated support 10 is reciprocated by the pitch of the corrugated wave when the cam plate 30 is rotated once. 11, the tip is in contact with the lower portion of the corrugated plate (P) and the flat portion 12 is in contact with the rest.

As illustrated in FIG. 8, as the cam support 50 is rotated, the corrugated support 10 positioned at the foremost passes the top of the corrugated flat plate P with its tip raised. At this time, the upper die (1) is completely moved to the top.

As shown in FIG. 9, the corrugated support 10 past the highest point is moved to the rear end. When the corrugated support 10 is moved to the rear end, the flat steel plate P having the corrugated tip is rearward by one pitch. It is in a state placed on the lower mold 2 in a fed state.

As shown in Fig. 10, a new waveform is added to the tip of the flat steel plate P whose tip is corrugated while the upper die 2 is lowered.

In the present invention, since the waveform molding and feeding are continuously performed simultaneously while repeating the above series of processes, the working speed is very fast and the shock is not transmitted to the flat steel plate during the feeding operation, thereby making accurate waveform molding.

1 is a state of use of the corrugated sheet steel sheet bending machine is applied to the corrugated sheet feeding apparatus of the corrugated sheet bending process according to the present invention.

Figure 2 is a side cross-sectional view of Figure 1, showing the initial state where the corrugated support is located at the rear end.

Figure 3 is a side cross-sectional view of Figure 1, showing the state in which the corrugated support is located at the forefront and the flat plate is mounted on the flat portion of the corrugated support.

Figure 4 is a side cross-sectional view of Figure 1, showing a state in which the waveform support is located at the highest point.

Figure 5 is a side cross-sectional view of Figure 1, showing the state in which the flat plate is placed on the lower mold while the corrugated support is returned to the rear end.

FIG. 6 is a side cross-sectional view of FIG. 1, in which the corrugated support is positioned at the lowest point and a waveform is formed at the tip of the flat steel plate; FIG.

Figure 7 is a side cross-sectional view of Figure 1, showing the state in which the corrugated support is in contact with the lower portion of the flat steel plate is formed in the tip of the waveform while the frontmost position.

Figure 8 is a side cross-sectional view of Figure 1, showing the state in which the lifting plate is formed on the top of the flat plate is formed in the waveform while the waveform support is located at the highest point.

FIG. 9 is a side cross-sectional view of FIG. 1, illustrating a state in which a corrugated support is rearwardly fed with a flat steel plate having a corrugated shape formed at a distal end thereof;

FIG. 10 is a side cross-sectional view of FIG. 1, in which a waveform support is positioned at the lowest point and a state in which a new waveform is additionally formed at the tip of a flat steel plate having a waveform formed at the tip; FIG.

<Description of the symbols for the main parts of the drawings>

1 ... upper 2 ... lower

10 ... wave support 11 ... waveform

12.flat part 20 ... connection rod

30.Campan 40.Rotating shaft

M ... drive motor P ... flat steel plate

Claims (3)

Corrugation with a corrugated sheet steel sheet bending machine formed in the lower end of the upper mold (1) and the upper end of the lower mold (2) to form concave and convex portions such as valleys and peaks of the corrugated steel sheet to form a waveform on the flat steel plate (P) by these concave and convex portions In the corrugated sheet feeding apparatus of the steel sheet bending process, Corrugated support (10) formed with a corrugated portion (11) corresponding to the waveform of the corrugated steel sheet at the top is arranged to divide the lower mold (2) at regular intervals in parallel with the traveling direction of the flat steel plate (P), Each of the corrugated support 10 is interconnected to allow simultaneous operation through the connecting rod 20 installed in the vertical direction and the traveling direction of the flat plate (P), Both ends of the connecting rod 20, the cam plate 30 is pin-coupled, At the center of each of the cam plate 30 is coupled a rotating shaft 40 in parallel with the connecting rod 20, The rotary shaft 40 on one side receives the rotational force through the driving motor M, and introduces the flat steel plate P waiting for the driving of the driving motor M to the corrugated sheet steel bending machine side and the corrugated support 10. Corrugated steel sheet feeding apparatus of the corrugated steel sheet bending process characterized by the above-mentioned. The corrugated steel sheet bending process raises the corrugated steel sheet on the upper part of the lower mold | type 2, and discharges it from a corrugated steel sheet bending machine continuously. The method of claim 1, The corrugated support 10 is Corrugated steel sheet feeding apparatus of the corrugated steel sheet bending process, characterized in that it has a flat portion (12) extending toward the inlet direction of the flat steel sheet (P) to support the lower portion of the flat steel sheet (P) to be introduced into the corrugated steel sheet bending machine. The method of claim 1, The corrugated support 10 is When the upper die (1) rises, the corrugated steel sheet bending, characterized in that it moves from the foremost point to the rearmost position. Corrugated sheet feeding device of process.

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